The largest panel of biotoxins to be simultaneously detected to date has been achieved using an assay platform developed by scientists at Pacific Northwest National Laboratory. The enzyme-linked immunosorbent assay (ELISA) microarray simultaneously detected 10 plant and microbial toxins in buffer and clinical and environmental samples. These included ricin, botulinum neurotoxins (BoNT), shiga (STX), and staphylococcal enterotoxin B (SEB). Previously, the largest number of toxins to be simultaneously detected has been six.
"Most assays to detect toxins target one or two toxins at a time, at best. In the event of a bioterrorist attack, it may not be obvious which agent was released, although this knowledge is critical for delivering appropriate medical treatment," said biologist Susan Varnum, who led the study, which appears in Analyst.
The 2014 Key Scientific Accomplishments report in fundamental and computational sciences is now available as a downloadable PDF. This 32-page full-color brochure highlights some of the year's most noteworthy science achievements by Pacific Northwest National Laboratory scientists.
Congratulations to Dr. William Cannon, head of the computational biology group at Pacific Northwest National Laboratory, who was invited to serve as an Editorial Board Member for Scientific Reports, a new open-source journal from Nature Publishing Group. Scientific Reports' impact factor is ranked one below PNAS, Nature Communications, Science, and Nature in the multidisciplinary science category. As a board member, Cannon will use his research expertise to assess manuscripts, manage their peer review, and make final editorial decisions.
Using a targeted chemical biology approach, scientists at PNNL identified an important subset consisting of more than 300 proteins in Synechococcus, a bacterium adept at converting carbon dioxide into other molecules of interest to energy researchers. These proteins are involved in generating macromolecule synthesis and carbon flux through central metabolic pathways and may also be involved in cell signaling and response mechanisms. The team's results suggest potential metabolic engineering targets for redirecting carbon toward biofuel precursors.
Dr. Janet Jansson, Director of PNNL's Biological Sciences Division was installed as president of the International Society for Microbial Ecology (ISME) August 29 at the Society's biennial symposium in Seoul, South Korea. She will serve as president through 2016, and will preside during the period leading up to the 2018 symposium in Montreal, Canada. She has served as president-elect since the 2012 symposium. Janet, who came to PNNL in June from Lawrence Berkeley National Laboratory, is an expert in the field of molecular microbial ecology with more than 25 years experience in this area. Her current research focuses on application of omics for studying complex microbial communities in a variety of environmental systems.